Research and Markets: Automatic Control Systems - The updated 9th Edition Includes Authoritative Coverage of Modern Design Tools and Examples.DUBLIN -- Research and Markets (http://www.researchandmarkets.com/research/69e940/automatic_control) has announced the addition of John Wiley John Wiley may refer to:
Automatic Control Systems provides engineers with a fresh new controls book that places special emphasis on mechatronics (MECHAnics elecTRONICS) The combination of mechanical and electronic systems. Embracing robotics, industrial control systems and human interfaces in numerous disciplines, mechatronics is a major step beyond "electromechanical," in which only electricity is required. . It follows a revolutionary approach by actually including a physical lab. In addition, readers will find authoritative coverage of modern design tools and examples. Current mechatronics applications build motivation to learn the material. Extensive use of virtual lab software is also integrated throughout the chapters. Engineers will gain a strong understand of control systems with the help of modern examples and exercises. Key Topics Covered: Chapter 1: Introduction Chapter 2: Theoretical Foundation And Background Material: Modeling Of Dynamical Systems Dynamical Systems A system of equations where the output of one equation is part of the input for another. A simple version of a dynamical system is linear simultaneous equations. Non-linear simultaneous equations are nonlinear dynamical systems. Chapter 3: Theoretical Foundation And Background Material: Complex Variables, Differential Equations differential equation Mathematical statement that contains one or more derivatives. It states a relationship involving the rates of change of continuously changing quantities modeled by functions. , Laplace Transform Laplace transform In mathematics, an integral transform useful in solving differential equations. The Laplace transform of a function is found by integrating the product of that function and the exponential function e−pt Chapter 4: Theoretical Foundation And Background Material: Block Diagrams, Signal Flow Graphs And State Diagrams Chapter 5: Modeling Of Physical Systems: Mixed Systems Chapter 6: Stability Of Linear Control Systems Chapter 7 Time-Domain Analysis Of Control Systems Chapter 8: Root Locus In control theory, the root locus is the locus of the poles and zeros of a transfer function as the system gain K is varied on some interval. The root locus is a useful tool for analyzing single input single output (SISO) linear dynamic systems. Techniques Chapter 9: Frequency Response Chapter 10: Design Of Control Systems: Time And Frequency Domain Chapter 11: The Control Laboratory: Physical Labs Chapter 12: State Variable Analysis Chapter 13: Design Of Control Systems: State Feedback Approach For more information visit http://www.researchandmarkets.com/research/69e940/automatic_control |
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